Acta Metall Sin  1997, Vol. 33 Issue (11): 1199-1206    DOI:

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MICROSTRUCTURAL FEATURES OF JOINT ZONES IN AN EXPLOSIVE WELDED Al/Ti/STEEL PLATE SYSTEM

PAN Chunxu;SHI Yuxiang;SUN Guozheng(Wuhan Transportation University; Wuhan 430063); W. Scholz; A. Y.Trykov(New Zealand Welding Centre;New Zealand)

PAN Chunxu;SHI Yuxiang;SUN Guozheng(Wuhan Transportation University; Wuhan 430063); W. Scholz; A. Y.Trykov(New Zealand Welding Centre;New Zealand). MICROSTRUCTURAL FEATURES OF JOINT ZONES IN AN EXPLOSIVE WELDED Al/Ti/STEEL PLATE SYSTEM. Acta Metall Sin, 1997, 33(11): 1199-1206.

Abstract References Related Articles Recommended Metrics Download:  PDF(4029KB)  Export:  BibTeX | EndNote (RIS)       Abstract  The microstructural variations of the bonded zones in an explosive welded Al/Ti/Steel plate system were studied by using electron microscopy techniques.The direct transmission electron microscope(TEM) observation found the transition zones in the bonded zone, and there are obvious interfaces between the transition zones and between transition zone and base metal.In the Al/Ti bonded zone, the transition zone is an Al+Ti mixture.In the Ti/Steel bonded zone,the transition zone is composed of the FeTi intermetallic layer and an amorphous layer.The morphology and size of the transition zones depend upon the diffussion of alloy elements and cooling rate during explosive welding. Key words:  explosive welding      interface structure      Ti      Al      Steel      Received:  18 November 1997      Service E-mail this article Add to citation manager E-mail Alert RSS （） Articles by authors URL:  https://www.ams.org.cn/EN/     OR     https://www.ams.org.cn/EN/Y1997/V33/I11/1199 1LinseVD.JMet,1984;36(5):62 2SchwartzMM著,袁文钊,侯玉年,王世望译.金属焊接手册.北京:国防工业出版社,1988:160 3裴大荣.稀有金属材料与工程,1986;15(4):28 4郑远谋.理化检验(物理分册),1989;25(2):10 5裴大荣,郭悦霞.稀有金属材料与工程,1995;24(6):48 6杨扬,张新明,李正华,李青云.金属学报,1994;30:A409 7山下忠美,思忠男,石井勇五郎.溶接学会志,1973;42:518 8GaninE,KomemY,WeissBZ.ActaMetall,1986;34:147 9周邦新,盛钟倚,彭峰.金属学报,1989;25:A7 10周邦新,蒋有荣.金属学报,1994;30:B104 11鲁汉民,段文森,裴大荣,黄敬梓.稀有金属材料与工程,1989;18(2):19 12段文森,马东康,鲁汉民,经玉珠.稀有金属材料与工程,1990;19(5):63 13颜学柏,李正华,彭文安.稀有金属材料与工程,1990;19(5):38 14TrykovAY,ScholzW.ProcIIWAsian—PacificWeldingCongress,Auckland,NewZealand,1996:827 15何康生,曹雄夫.异种金属焊接.北京:机械工业出版社,1986:416 16PябоBBP著,王义衡,赵瑞湘译.铝及铝合金与其它金属的焊接.北京:宇航出版社,1990:196 17周邦新,赵文金,黄德城.金属科学与工艺,1987;6(4):26 18杨扬,张新明,李正华,李青云.金属学报,1995;31:B188 [1] JIANG He, NAI Qiliang, XU Chao, ZHAO Xiao, YAO Zhihao, DONG Jianxin. Sensitive Temperature and Reason of Rapid Fatigue Crack Propagation in Nickel-Based Superalloy[J]. 金属学报, 2023, 59(9): 1190-1200. [2] BAI Jiaming, LIU Jiantao, JIA Jian, ZHANG Yiwen. Creep Properties and Solute Atomic Segregation of High-W and High-Ta Type Powder Metallurgy Superalloy[J]. 金属学报, 2023, 59(9): 1230-1242. [3] ZHAO Peng, XIE Guang, DUAN Huichao, ZHANG Jian, DU Kui. Recrystallization During Thermo-Mechanical Fatigue of Two High-Generation Ni-Based Single Crystal Superalloys[J]. 金属学报, 2023, 59(9): 1221-1229. [4] FENG Qiang, LU Song, LI Wendao, ZHANG Xiaorui, LI Longfei, ZOU Min, ZHUANG Xiaoli. Recent Progress in Alloy Design and Creep Mechanism of γ'-Strengthened Co-Based Superalloys[J]. 金属学报, 2023, 59(9): 1125-1143. [5] DU Jinhui, BI Zhongnan, QU Jinglong. Recent Development of Triple Melt GH4169 Alloy[J]. 金属学报, 2023, 59(9): 1159-1172. [6] LI Jiarong, DONG Jianmin, HAN Mei, LIU Shizhong. Effects of Sand Blasting on Surface Integrity and High Cycle Fatigue Properties of DD6 Single Crystal Superalloy[J]. 金属学报, 2023, 59(9): 1201-1208. [7] BI Zhongnan, QIN Hailong, LIU Pei, SHI Songyi, XIE Jinli, ZHANG Ji. Research Progress Regarding Quantitative Characterization and Control Technology of Residual Stress in Superalloy Forgings[J]. 金属学报, 2023, 59(9): 1144-1158. [8] ZHENG Liang, ZHANG Qiang, LI Zhou, ZHANG Guoqing. Effects of Oxygen Increasing/Decreasing Processes on Surface Characteristics of Superalloy Powders and Properties of Their Bulk Alloy Counterparts: Powders Storage and Degassing[J]. 金属学报, 2023, 59(9): 1265-1278. [9] MA Dexin, ZHAO Yunxing, XU Weitai, WANG Fu. Effect of Gravity on Directionally Solidified Structure of Superalloys[J]. 金属学报, 2023, 59(9): 1279-1290. [10] CHEN Jia, GUO Min, YANG Min, LIU Lin, ZHANG Jun. Effects of W Concentration on Creep Microstructure and Property of Novel Co-Based Superalloys[J]. 金属学报, 2023, 59(9): 1209-1220. [11] WANG Lei, LIU Mengya, LIU Yang, SONG Xiu, MENG Fanqiang. Research Progress on Surface Impact Strengthening Mechanisms and Application of Nickel-Based Superalloys[J]. 金属学报, 2023, 59(9): 1173-1189. [12] ZHANG Leilei, CHEN Jingyang, TANG Xin, XIAO Chengbo, ZHANG Mingjun, YANG Qing. Evolution of Microstructures and Mechanical Properties of K439B Superalloy During Long-Term Aging at 800oC[J]. 金属学报, 2023, 59(9): 1253-1264. [13] LU Nannan, GUO Yimo, YANG Shulin, LIANG Jingjing, ZHOU Yizhou, SUN Xiaofeng, LI Jinguo. Formation Mechanisms of Hot Cracks in Laser Additive Repairing Single Crystal Superalloys[J]. 金属学报, 2023, 59(9): 1243-1252. [14] GONG Shengkai, LIU Yuan, GENG Lilun, RU Yi, ZHAO Wenyue, PEI Yanling, LI Shusuo. Advances in the Regulation and Interfacial Behavior of Coatings/Superalloys[J]. 金属学报, 2023, 59(9): 1097-1108. [15] ZHANG Jian, WANG Li, XIE Guang, WANG Dong, SHEN Jian, LU Yuzhang, HUANG Yaqi, LI Yawei. Recent Progress in Research and Development of Nickel-Based Single Crystal Superalloys[J]. 金属学报, 2023, 59(9): 1109-1124. No Suggested Reading articles found! Viewed Full text Abstract Cited   Shared      Discussed